/*++ BUILD Version: 0001    // Increment this if a change has global effects

Copyright (c) Microsoft Corporation. All rights reserved.

You may only use this code if you agree to the terms of the Windows Research Kernel Source Code License agreement (see License.txt).
If you do not agree to the terms, do not use the code.


Module Name:

    ntdef.h

Abstract:

    Type definitions for the basic types.

--*/

#ifndef _NTDEF_
#define _NTDEF_

#if _MSC_VER > 1000
#pragma once
#endif

#include <ctype.h>  // winnt ntndis

// begin_ntminiport begin_ntndis begin_ntminitape

#ifndef IN
#define IN
#endif

#ifndef OUT
#define OUT
#endif

#ifndef OPTIONAL
#define OPTIONAL
#endif

#ifndef NOTHING
#define NOTHING
#endif

#ifndef CRITICAL
#define CRITICAL
#endif

#ifndef ANYSIZE_ARRAY
#define ANYSIZE_ARRAY 1       // winnt
#endif

// begin_winnt

#include <specstrings.h>

#if !(defined(MIDL_PASS) || defined(RC_INVOKED)) && defined(ENABLE_RESTRICTED)
#define RESTRICTED_POINTER __restrict
#else
#define RESTRICTED_POINTER
#endif

#if defined(_M_AMD64)
#define UNALIGNED __unaligned
#if defined(_WIN64)
#define UNALIGNED64 __unaligned
#else
#define UNALIGNED64
#endif
#else
#define UNALIGNED
#define UNALIGNED64
#endif


#if defined(_WIN64)
#define MAX_NATURAL_ALIGNMENT sizeof(ULONGLONG)
#define MEMORY_ALLOCATION_ALIGNMENT 16
#else
#define MAX_NATURAL_ALIGNMENT sizeof(ULONG)
#define MEMORY_ALLOCATION_ALIGNMENT 8
#endif

//
// TYPE_ALIGNMENT will return the alignment requirements of a given type for
// the current platform.
//

#ifdef __cplusplus
#if _MSC_VER >= 1300
#define TYPE_ALIGNMENT( t ) __alignof(t)
#endif
#else
#define TYPE_ALIGNMENT( t ) \
    FIELD_OFFSET( struct { char x; t test; }, test )
#endif

#if defined(_WIN64)

#if defined(_AMD64_)
#define PROBE_ALIGNMENT( _s ) TYPE_ALIGNMENT( ULONG )
#else
#error "No Target Architecture"                               
#endif                               

#define PROBE_ALIGNMENT32( _s ) TYPE_ALIGNMENT( ULONG )

#else

#define PROBE_ALIGNMENT( _s ) TYPE_ALIGNMENT( ULONG )

#endif

//
// C_ASSERT() can be used to perform many compile-time assertions:
//            type sizes, field offsets, etc.
//
// An assertion failure results in error C2118: negative subscript.
//

#define C_ASSERT(e) typedef char __C_ASSERT__[(e)?1:-1]

#include <basetsd.h>

// end_winnt

#ifndef CONST
#define CONST               const
#endif

// begin_winnt

#if (defined(_M_IX86) || defined(_M_AMD64)) && !defined(MIDL_PASS)
#define DECLSPEC_IMPORT __declspec(dllimport)
#else
#define DECLSPEC_IMPORT
#endif

#ifndef DECLSPEC_NORETURN
#if (_MSC_VER >= 1200) && !defined(MIDL_PASS)
#define DECLSPEC_NORETURN   __declspec(noreturn)
#else
#define DECLSPEC_NORETURN
#endif
#endif

#ifndef DECLSPEC_ALIGN
#if (_MSC_VER >= 1300) && !defined(MIDL_PASS)
#define DECLSPEC_ALIGN(x)   __declspec(align(x))
#else
#define DECLSPEC_ALIGN(x)
#endif
#endif

#ifndef SYSTEM_CACHE_ALIGNMENT_SIZE
#if defined(_AMD64_) || defined(_X86_)
#define SYSTEM_CACHE_ALIGNMENT_SIZE 64
#else
#define SYSTEM_CACHE_ALIGNMENT_SIZE 128
#endif
#endif

#ifndef DECLSPEC_CACHEALIGN
#define DECLSPEC_CACHEALIGN DECLSPEC_ALIGN(SYSTEM_CACHE_ALIGNMENT_SIZE)
#endif

#ifndef DECLSPEC_UUID
#if (_MSC_VER >= 1100) && defined (__cplusplus)
#define DECLSPEC_UUID(x)    __declspec(uuid(x))
#else
#define DECLSPEC_UUID(x)
#endif
#endif

#ifndef DECLSPEC_NOVTABLE
#if (_MSC_VER >= 1100) && defined(__cplusplus)
#define DECLSPEC_NOVTABLE   __declspec(novtable)
#else
#define DECLSPEC_NOVTABLE
#endif
#endif

#ifndef DECLSPEC_SELECTANY
#if (_MSC_VER >= 1100)
#define DECLSPEC_SELECTANY  __declspec(selectany)
#else
#define DECLSPEC_SELECTANY
#endif
#endif

#ifndef NOP_FUNCTION
#if (_MSC_VER >= 1210)
#define NOP_FUNCTION __noop
#else
#define NOP_FUNCTION (void)0
#endif
#endif

#ifndef DECLSPEC_NOINLINE
#if (_MSC_VER >= 1300)
#define DECLSPEC_NOINLINE  __declspec(noinline)
#else
#define DECLSPEC_NOINLINE
#endif
#endif

#ifndef FORCEINLINE
#if (_MSC_VER >= 1200)
#define FORCEINLINE __forceinline
#else
#define FORCEINLINE __inline
#endif
#endif

#ifndef DECLSPEC_DEPRECATED
#if (_MSC_VER >= 1300) && !defined(MIDL_PASS)
#define DECLSPEC_DEPRECATED   __declspec(deprecated)
#define DEPRECATE_SUPPORTED
#else
#define DECLSPEC_DEPRECATED
#undef  DEPRECATE_SUPPORTED
#endif
#endif

#ifdef DEPRECATE_DDK_FUNCTIONS
#ifdef _NTDDK_
#define DECLSPEC_DEPRECATED_DDK DECLSPEC_DEPRECATED
#ifdef DEPRECATE_SUPPORTED
#define PRAGMA_DEPRECATED_DDK 1
#endif
#else
#define DECLSPEC_DEPRECATED_DDK
#define PRAGMA_DEPRECATED_DDK 1
#endif
#else
#define DECLSPEC_DEPRECATED_DDK
#define PRAGMA_DEPRECATED_DDK 0
#endif

//
// Void
//

typedef void *PVOID;
typedef void * POINTER_64 PVOID64;

// end_winnt

#if defined(_M_IX86)
#define FASTCALL _fastcall
#else
#define FASTCALL
#endif

// end_ntminiport end_ntndis end_ntminitape

// begin_winnt begin_ntndis

#if (_MSC_VER >= 800) || defined(_STDCALL_SUPPORTED)
#define NTAPI __stdcall
#else
#define _cdecl
#define NTAPI
#endif

//
// Define API decoration for direct importing system DLL references.
//

#if !defined(_NTSYSTEM_)
#define NTSYSAPI     DECLSPEC_IMPORT
#define NTSYSCALLAPI DECLSPEC_IMPORT
#else
#define NTSYSAPI
#define NTSYSCALLAPI
#endif

// end_winnt end_ntndis

// begin_winnt begin_ntminiport begin_ntndis begin_ntminitape

//
// Basics
//

#ifndef VOID
#define VOID void
typedef char CHAR;
typedef short SHORT;
typedef long LONG;
#endif

//
// UNICODE (Wide Character) types
//

typedef wchar_t WCHAR;    // wc,   16-bit UNICODE character

typedef WCHAR *PWCHAR, *LPWCH, *PWCH;
typedef CONST WCHAR *LPCWCH, *PCWCH;
typedef __nullterminated WCHAR *NWPSTR, *LPWSTR, *PWSTR;
typedef __nullterminated PWSTR *PZPWSTR;
typedef __nullterminated CONST PWSTR *PCZPWSTR;
typedef __nullterminated WCHAR UNALIGNED *LPUWSTR, *PUWSTR;
typedef __nullterminated CONST WCHAR *LPCWSTR, *PCWSTR;
typedef __nullterminated PCWSTR *PZPCWSTR;
typedef __nullterminated CONST WCHAR UNALIGNED *LPCUWSTR, *PCUWSTR;

//
// ANSI (Multi-byte Character) types
//
typedef CHAR *PCHAR, *LPCH, *PCH;
typedef CONST CHAR *LPCCH, *PCCH;

typedef __nullterminated CHAR *NPSTR, *LPSTR, *PSTR;
typedef __nullterminated PSTR *PZPSTR;
typedef __nullterminated CONST PSTR *PCZPSTR;
typedef __nullterminated CONST CHAR *LPCSTR, *PCSTR;
typedef __nullterminated PCSTR *PZPCSTR;

//
// Neutral ANSI/UNICODE types and macros
//
#ifdef  UNICODE                     // r_winnt

#ifndef _TCHAR_DEFINED
typedef WCHAR TCHAR, *PTCHAR;
typedef WCHAR TUCHAR, *PTUCHAR;
#define _TCHAR_DEFINED
#endif /* !_TCHAR_DEFINED */

typedef LPWSTR LPTCH, PTCH;
typedef LPWSTR PTSTR, LPTSTR;
typedef LPCWSTR PCTSTR, LPCTSTR;
typedef LPUWSTR PUTSTR, LPUTSTR;
typedef LPCUWSTR PCUTSTR, LPCUTSTR;
typedef LPWSTR LP;
#define __TEXT(quote) L##quote      // r_winnt

#else   /* UNICODE */               // r_winnt

#ifndef _TCHAR_DEFINED
typedef char TCHAR, *PTCHAR;
typedef unsigned char TUCHAR, *PTUCHAR;
#define _TCHAR_DEFINED
#endif /* !_TCHAR_DEFINED */

typedef LPSTR LPTCH, PTCH;
typedef LPSTR PTSTR, LPTSTR, PUTSTR, LPUTSTR;
typedef LPCSTR PCTSTR, LPCTSTR, PCUTSTR, LPCUTSTR;
#define __TEXT(quote) quote         // r_winnt

#endif /* UNICODE */                // r_winnt
#define TEXT(quote) __TEXT(quote)   // r_winnt


// end_winnt

//
// The type QUAD and UQUAD are intended to use when a 8 byte aligned structure
// is required, but it is not a floating point number.
//

typedef double DOUBLE;

typedef struct _QUAD {             
    union {
        __int64 UseThisFieldToCopy;
        double  DoNotUseThisField;
    };
                                   
} QUAD;

//
// Pointer to Basics
//

typedef SHORT *PSHORT;  // winnt
typedef LONG *PLONG;    // winnt
typedef QUAD *PQUAD;

//
// Unsigned Basics
//

// Tell windef.h that some types are already defined.
#define BASETYPES

typedef unsigned char UCHAR;
typedef unsigned short USHORT;
typedef unsigned long ULONG;
typedef QUAD UQUAD;

//
// Pointer to Unsigned Basics
//

typedef UCHAR *PUCHAR;
typedef USHORT *PUSHORT;
typedef ULONG *PULONG;
typedef UQUAD *PUQUAD;

//
// Signed characters
//

typedef signed char SCHAR;
typedef SCHAR *PSCHAR;

#ifndef NO_STRICT
#ifndef STRICT
#define STRICT 1
#endif
#endif

//
// Handle to an Object
//

// begin_winnt

#ifdef STRICT
typedef void *HANDLE;
#define DECLARE_HANDLE(name) struct name##__ { int unused; }; typedef struct name##__ *name
#else
typedef PVOID HANDLE;
#define DECLARE_HANDLE(name) typedef HANDLE name
#endif
typedef HANDLE *PHANDLE;

//
// Flag (bit) fields
//

typedef UCHAR  FCHAR;
typedef USHORT FSHORT;
typedef ULONG  FLONG;

// Component Object Model defines, and macros

#ifndef _HRESULT_DEFINED
#define _HRESULT_DEFINED
typedef LONG HRESULT;

#endif // !_HRESULT_DEFINED

#ifdef __cplusplus
    #define EXTERN_C    extern "C"
#else
    #define EXTERN_C    extern
#endif

#if defined(_WIN32)

// Win32 doesn't support __export

#define STDMETHODCALLTYPE       __stdcall
#define STDMETHODVCALLTYPE      __cdecl

#define STDAPICALLTYPE          __stdcall
#define STDAPIVCALLTYPE         __cdecl

#else

#define STDMETHODCALLTYPE       __export __stdcall
#define STDMETHODVCALLTYPE      __export __cdecl

#define STDAPICALLTYPE          __export __stdcall
#define STDAPIVCALLTYPE         __export __cdecl

#endif


#define STDAPI                  EXTERN_C HRESULT STDAPICALLTYPE
#define STDAPI_(type)           EXTERN_C type STDAPICALLTYPE

#define STDMETHODIMP            HRESULT STDMETHODCALLTYPE
#define STDMETHODIMP_(type)     type STDMETHODCALLTYPE

// The 'V' versions allow Variable Argument lists.

#define STDAPIV                 EXTERN_C HRESULT STDAPIVCALLTYPE
#define STDAPIV_(type)          EXTERN_C type STDAPIVCALLTYPE

#define STDMETHODIMPV           HRESULT STDMETHODVCALLTYPE
#define STDMETHODIMPV_(type)    type STDMETHODVCALLTYPE

// end_winnt


//
// Low order two bits of a handle are ignored by the system and available
// for use by application code as tag bits.  The remaining bits are opaque
// and used to store a serial number and table index.
//

#define OBJ_HANDLE_TAGBITS  0x00000003L

//
// Cardinal Data Types [0 - 2**N-2)
//

typedef char CCHAR;          // winnt
typedef short CSHORT;
typedef ULONG CLONG;

typedef CCHAR *PCCHAR;
typedef CSHORT *PCSHORT;
typedef CLONG *PCLONG;

// end_ntminiport end_ntndis end_ntminitape

//
// NLS basics (Locale and Language Ids)
//

typedef ULONG LCID;         // winnt
typedef PULONG PLCID;       // winnt
typedef USHORT LANGID;      // winnt

//
// Logical Data Type - These are 32-bit logical values.
//

typedef ULONG LOGICAL;
typedef ULONG *PLOGICAL;

// begin_ntndis begin_windbgkd
//
// NTSTATUS
//

typedef LONG NTSTATUS;
/*lint -save -e624 */  // Don't complain about different typedefs.
typedef NTSTATUS *PNTSTATUS;
/*lint -restore */  // Resume checking for different typedefs.

//
//  Status values are 32 bit values layed out as follows:
//
//   3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1
//   1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
//  +---+-+-------------------------+-------------------------------+
//  |Sev|C|       Facility          |               Code            |
//  +---+-+-------------------------+-------------------------------+
//
//  where
//
//      Sev - is the severity code
//
//          00 - Success
//          01 - Informational
//          10 - Warning
//          11 - Error
//
//      C - is the Customer code flag
//
//      Facility - is the facility code
//
//      Code - is the facility's status code
//

//
// Generic test for success on any status value (non-negative numbers
// indicate success).
//

#define NT_SUCCESS(Status) ((NTSTATUS)(Status) >= 0)

//
// Generic test for information on any status value.
//

#define NT_INFORMATION(Status) ((ULONG)(Status) >> 30 == 1)

//
// Generic test for warning on any status value.
//

#define NT_WARNING(Status) ((ULONG)(Status) >> 30 == 2)

//
// Generic test for error on any status value.
//

#define NT_ERROR(Status) ((ULONG)(Status) >> 30 == 3)

// end_windbgkd
// begin_winnt
#define APPLICATION_ERROR_MASK       0x20000000
#define ERROR_SEVERITY_SUCCESS       0x00000000
#define ERROR_SEVERITY_INFORMATIONAL 0x40000000
#define ERROR_SEVERITY_WARNING       0x80000000
#define ERROR_SEVERITY_ERROR         0xC0000000
// end_winnt

#ifndef __SECSTATUS_DEFINED__
typedef long SECURITY_STATUS;
#define __SECSTATUS_DEFINED__
#endif


// end_ntndis
//
// Large (64-bit) integer types and operations
//

#define TIME LARGE_INTEGER
#define _TIME _LARGE_INTEGER
#define PTIME PLARGE_INTEGER
#define LowTime LowPart
#define HighTime HighPart

// begin_winnt

//
// _M_IX86 included so that EM CONTEXT structure compiles with x86 programs.
//

//
// 16 byte aligned type for 128 bit floats
//

//
// For we define a 128 bit structure and use __declspec(align(16)) pragma to
// align to 128 bits.
//

typedef struct _FLOAT128 {
    __int64 LowPart;
    __int64 HighPart;
} FLOAT128;

typedef FLOAT128 *PFLOAT128;

// end_winnt


// begin_winnt begin_ntminiport begin_ntndis begin_ntminitape

//
// __int64 is only supported by 2.0 and later midl.
// __midl is set by the 2.0 midl and not by 1.0 midl.
//

#define _ULONGLONG_
#if ((!defined(MIDL_PASS) || defined(__midl)) && (!defined(_M_IX86) || (defined(_INTEGRAL_MAX_BITS) && _INTEGRAL_MAX_BITS >= 64)))
typedef __int64 LONGLONG;
typedef unsigned __int64 ULONGLONG;

#define MAXLONGLONG                      (0x7fffffffffffffff)
#else

typedef double LONGLONG;
typedef double ULONGLONG;

#endif

typedef LONGLONG *PLONGLONG;
typedef ULONGLONG *PULONGLONG;

// Update Sequence Number

typedef LONGLONG USN;

#if defined(MIDL_PASS)
typedef struct _LARGE_INTEGER {
#else // MIDL_PASS
typedef union _LARGE_INTEGER {
    struct {
        ULONG LowPart;
        LONG HighPart;
    };
    struct {
        ULONG LowPart;
        LONG HighPart;
    } u;
#endif //MIDL_PASS
    LONGLONG QuadPart;
} LARGE_INTEGER;

typedef LARGE_INTEGER *PLARGE_INTEGER;

#if defined(MIDL_PASS)
typedef struct _ULARGE_INTEGER {
#else // MIDL_PASS
typedef union _ULARGE_INTEGER {
    struct {
        ULONG LowPart;
        ULONG HighPart;
    };
    struct {
        ULONG LowPart;
        ULONG HighPart;
    } u;
#endif //MIDL_PASS
    ULONGLONG QuadPart;
} ULARGE_INTEGER;

typedef ULARGE_INTEGER *PULARGE_INTEGER;

// end_ntminiport end_ntndis end_ntminitape


//
// Locally Unique Identifier
//

typedef struct _LUID {
    ULONG LowPart;
    LONG HighPart;
} LUID, *PLUID;

#define _DWORDLONG_
typedef ULONGLONG  DWORDLONG;
typedef DWORDLONG *PDWORDLONG;

// end_winnt

// begin_ntminiport begin_ntndis

//
// Physical address.
//

typedef LARGE_INTEGER PHYSICAL_ADDRESS, *PPHYSICAL_ADDRESS;

// end_ntminiport end_ntndis

// begin_winnt

//
// Define operations to logically shift an int64 by 0..31 bits and to multiply
// 32-bits by 32-bits to form a 64-bit product.
//

#if defined(MIDL_PASS) || defined(RC_INVOKED) || defined(_M_CEE_PURE)

//
// Midl does not understand inline assembler. Therefore, the Rtl functions
// are used for shifts by 0.31 and multiplies of 32-bits times 32-bits to
// form a 64-bit product.
//

#define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b)))
#define UInt32x32To64(a, b) ((ULONGLONG)((ULONG)(a)) * (ULONGLONG)((ULONG)(b)))

#define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b))
#define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b))
#define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b))

#elif defined(_M_IX86)

//
// The x86 C compiler understands inline assembler. Therefore, inline functions
// that employ inline assembler are used for shifts of 0..31.  The multiplies
// rely on the compiler recognizing the cast of the multiplicand to int64 to
// generate the optimal code inline.
//

#define Int32x32To64( a, b ) (LONGLONG)((LONGLONG)(LONG)(a) * (LONG)(b))
#define UInt32x32To64( a, b ) (ULONGLONG)((ULONGLONG)(ULONG)(a) * (ULONG)(b))

ULONGLONG
NTAPI
Int64ShllMod32 (
    ULONGLONG Value,
    ULONG ShiftCount
    );

LONGLONG
NTAPI
Int64ShraMod32 (
    LONGLONG Value,
    ULONG ShiftCount
    );

ULONGLONG
NTAPI
Int64ShrlMod32 (
    ULONGLONG Value,
    ULONG ShiftCount
    );

#if _MSC_VER >= 1200
#pragma warning(push)
#endif
#pragma warning(disable:4035 4793)               // re-enable below

__inline ULONGLONG
NTAPI
Int64ShllMod32 (
    ULONGLONG Value,
    ULONG ShiftCount
    )
{
    __asm    {
        mov     ecx, ShiftCount
        mov     eax, dword ptr [Value]
        mov     edx, dword ptr [Value+4]
        shld    edx, eax, cl
        shl     eax, cl
    }
}

__inline LONGLONG
NTAPI
Int64ShraMod32 (
    LONGLONG Value,
    ULONG ShiftCount
    )
{
    __asm {
        mov     ecx, ShiftCount
        mov     eax, dword ptr [Value]
        mov     edx, dword ptr [Value+4]
        shrd    eax, edx, cl
        sar     edx, cl
    }
}

__inline ULONGLONG
NTAPI
Int64ShrlMod32 (
    ULONGLONG Value,
    ULONG ShiftCount
    )
{
    __asm    {
        mov     ecx, ShiftCount
        mov     eax, dword ptr [Value]
        mov     edx, dword ptr [Value+4]
        shrd    eax, edx, cl
        shr     edx, cl
    }
}

#if _MSC_VER >= 1200
#pragma warning(pop)
#else
#pragma warning(default:4035 4793)
#endif

#elif defined(_M_AMD64)

//
// The AMD64 has native 64-bit operations that are just as fast as their
// 32-bit counter parts. Therefore, the int64 data type is used directly to form
// shifts of 0..31 and multiplies of 32-bits times 32-bits to form a 64-bit
// product.
//

#define Int32x32To64(a, b) ((LONGLONG)((LONG)(a)) * (LONGLONG)((LONG)(b)))
#define UInt32x32To64(a, b) ((ULONGLONG)((ULONG)(a)) * (ULONGLONG)((ULONG)(b)))

#define Int64ShllMod32(a, b) ((ULONGLONG)(a) << (b))
#define Int64ShraMod32(a, b) ((LONGLONG)(a) >> (b))
#define Int64ShrlMod32(a, b) ((ULONGLONG)(a) >> (b))

#else

#error Must define a target architecture.

#endif

//
// Define rotate intrinsics.
//

#ifdef __cplusplus
extern "C" {
#endif

#if defined(_M_AMD64)

#define RotateLeft8 _rotl8
#define RotateLeft16 _rotl16
#define RotateRight8 _rotr8
#define RotateRight16 _rotr16

unsigned char
__cdecl
_rotl8 (
    IN unsigned char Value,
    IN unsigned char Shift
    );

unsigned short
__cdecl
_rotl16 (
    IN unsigned short Value,
    IN unsigned char Shift
    );

unsigned char
__cdecl
_rotr8 (
    IN unsigned char Value,
    IN unsigned char Shift
    );

unsigned short
__cdecl
_rotr16 (
    IN unsigned short Value,
    IN unsigned char Shift
    );

#pragma intrinsic(_rotl8)
#pragma intrinsic(_rotl16)
#pragma intrinsic(_rotr8)
#pragma intrinsic(_rotr16)

#endif /* _M_AMD64 */

#if _MSC_VER >= 1300

#define RotateLeft32 _rotl
#define RotateLeft64 _rotl64
#define RotateRight32 _rotr
#define RotateRight64 _rotr64

unsigned int
__cdecl
_rotl (
    IN unsigned int Value,
    IN int Shift
    );

unsigned __int64
__cdecl
_rotl64 (
    IN unsigned __int64 Value,
    IN int Shift
    );

unsigned int
__cdecl
_rotr (
    IN unsigned int Value,
    IN int Shift
    );

unsigned __int64
__cdecl
_rotr64 (
    IN unsigned __int64 Value,
    IN int Shift
    );

#pragma intrinsic(_rotl)
#pragma intrinsic(_rotl64)
#pragma intrinsic(_rotr)
#pragma intrinsic(_rotr64)

#endif	/* _MSC_VER >= 1300 */

#ifdef __cplusplus
}
#endif

// end_winnt

//
// Event type
//

typedef enum _EVENT_TYPE {
    NotificationEvent,
    SynchronizationEvent
    } EVENT_TYPE;

//
// Timer type
//

typedef enum _TIMER_TYPE {
    NotificationTimer,
    SynchronizationTimer
    } TIMER_TYPE;

//
// Wait type
//

typedef enum _WAIT_TYPE {
    WaitAll,
    WaitAny
    } WAIT_TYPE;

//
// Pointer to an Asciiz string
//

typedef CHAR *PSZ;
typedef CONST char *PCSZ;

// begin_ntndis
//
// Counted String
//

typedef USHORT RTL_STRING_LENGTH_TYPE;

typedef struct _STRING {
    USHORT Length;
    USHORT MaximumLength;
#ifdef MIDL_PASS
    [size_is(MaximumLength), length_is(Length) ]
#endif // MIDL_PASS
    PCHAR Buffer;
} STRING;
typedef STRING *PSTRING;

typedef STRING ANSI_STRING;
typedef PSTRING PANSI_STRING;

typedef STRING OEM_STRING;
typedef PSTRING POEM_STRING;
typedef CONST STRING* PCOEM_STRING;

//
// CONSTCounted String
//

typedef struct _CSTRING {
    USHORT Length;
    USHORT MaximumLength;
    CONST char *Buffer;
} CSTRING;
typedef CSTRING *PCSTRING;
#define ANSI_NULL ((CHAR)0)     // winnt

typedef STRING CANSI_STRING;
typedef PSTRING PCANSI_STRING;

//
// Unicode strings are counted 16-bit character strings. If they are
// NULL terminated, Length does not include trailing NULL.
//

typedef struct _UNICODE_STRING {
    USHORT Length;
    USHORT MaximumLength;
#ifdef MIDL_PASS
    [size_is(MaximumLength / 2), length_is((Length) / 2) ] USHORT * Buffer;
#else // MIDL_PASS
    PWSTR  Buffer;
#endif // MIDL_PASS
} UNICODE_STRING;
typedef UNICODE_STRING *PUNICODE_STRING;
typedef const UNICODE_STRING *PCUNICODE_STRING;
#define UNICODE_NULL ((WCHAR)0) // winnt

#if _WIN32_WINNT >= 0x0501

#define UNICODE_STRING_MAX_BYTES ((USHORT) 65534) // winnt
#define UNICODE_STRING_MAX_CHARS (32767) // winnt

#define DECLARE_CONST_UNICODE_STRING(_variablename, _string) \
const WCHAR _variablename ## _buffer[] = _string; \
const UNICODE_STRING _variablename = { sizeof(_string) - sizeof(WCHAR), sizeof(_string), (PWSTR) _variablename ## _buffer };

#endif // _WIN32_WINNT >= 0x0501

// begin_ntminiport begin_ntminitape

//
// Boolean
//

typedef UCHAR BOOLEAN;           // winnt
typedef BOOLEAN *PBOOLEAN;       // winnt

// end_ntminiport end_ntminitape

// begin_winnt
//
//  Doubly linked list structure.  Can be used as either a list head, or
//  as link words.
//

typedef struct _LIST_ENTRY {
   struct _LIST_ENTRY *Flink;
   struct _LIST_ENTRY *Blink;
} LIST_ENTRY, *PLIST_ENTRY, *RESTRICTED_POINTER PRLIST_ENTRY;

//
//  Singly linked list structure. Can be used as either a list head, or
//  as link words.
//

typedef struct _SINGLE_LIST_ENTRY {
    struct _SINGLE_LIST_ENTRY *Next;
} SINGLE_LIST_ENTRY, *PSINGLE_LIST_ENTRY;
// end_winnt end_ntndis

// begin_winnt

//
// These are needed for portable debugger support.
//

typedef struct LIST_ENTRY32 {
    ULONG Flink;
    ULONG Blink;
} LIST_ENTRY32;
typedef LIST_ENTRY32 *PLIST_ENTRY32;

typedef struct LIST_ENTRY64 {
    ULONGLONG Flink;
    ULONGLONG Blink;
} LIST_ENTRY64;
typedef LIST_ENTRY64 *PLIST_ENTRY64;

// end_winnt


#if !defined(MIDL_PASS)
__inline
void
ListEntry32To64(
    IN PLIST_ENTRY32 l32,
    OUT PLIST_ENTRY64 l64
    )
{
    l64->Flink = (ULONGLONG)(LONGLONG)(LONG)l32->Flink;
    l64->Blink = (ULONGLONG)(LONGLONG)(LONG)l32->Blink;
}

__inline
void
ListEntry64To32(
    IN PLIST_ENTRY64 l64,
    OUT PLIST_ENTRY32 l32
    )
{
    l32->Flink = (ULONG)l64->Flink;
    l32->Blink = (ULONG)l64->Blink;
}
#endif

typedef struct _STRING32 {
    USHORT   Length;
    USHORT   MaximumLength;
    ULONG  Buffer;
} STRING32;
typedef STRING32 *PSTRING32;

typedef STRING32 UNICODE_STRING32;
typedef UNICODE_STRING32 *PUNICODE_STRING32;

typedef STRING32 ANSI_STRING32;
typedef ANSI_STRING32 *PANSI_STRING32;


typedef struct _STRING64 {
    USHORT   Length;
    USHORT   MaximumLength;
    ULONGLONG  Buffer;
} STRING64;
typedef STRING64 *PSTRING64;

typedef STRING64 UNICODE_STRING64;
typedef UNICODE_STRING64 *PUNICODE_STRING64;

typedef STRING64 ANSI_STRING64;
typedef ANSI_STRING64 *PANSI_STRING64;



//
// Valid values for the Attributes field
//

#define OBJ_INHERIT             0x00000002L
#define OBJ_PERMANENT           0x00000010L
#define OBJ_EXCLUSIVE           0x00000020L
#define OBJ_CASE_INSENSITIVE    0x00000040L
#define OBJ_OPENIF              0x00000080L
#define OBJ_OPENLINK            0x00000100L
#define OBJ_KERNEL_HANDLE       0x00000200L
#define OBJ_FORCE_ACCESS_CHECK  0x00000400L
#define OBJ_VALID_ATTRIBUTES    0x000007F2L

//
// Object Attributes structure
//

typedef struct _OBJECT_ATTRIBUTES64 {
    ULONG Length;
    ULONG64 RootDirectory;
    ULONG64 ObjectName;
    ULONG Attributes;
    ULONG64 SecurityDescriptor;
    ULONG64 SecurityQualityOfService;
} OBJECT_ATTRIBUTES64;
typedef OBJECT_ATTRIBUTES64 *POBJECT_ATTRIBUTES64;
typedef CONST OBJECT_ATTRIBUTES64 *PCOBJECT_ATTRIBUTES64;

typedef struct _OBJECT_ATTRIBUTES32 {
    ULONG Length;
    ULONG RootDirectory;
    ULONG ObjectName;
    ULONG Attributes;
    ULONG SecurityDescriptor;
    ULONG SecurityQualityOfService;
} OBJECT_ATTRIBUTES32;
typedef OBJECT_ATTRIBUTES32 *POBJECT_ATTRIBUTES32;
typedef CONST OBJECT_ATTRIBUTES32 *PCOBJECT_ATTRIBUTES32;

typedef struct _OBJECT_ATTRIBUTES {
    ULONG Length;
    HANDLE RootDirectory;
    PUNICODE_STRING ObjectName;
    ULONG Attributes;
    PVOID SecurityDescriptor;        // Points to type SECURITY_DESCRIPTOR
    PVOID SecurityQualityOfService;  // Points to type SECURITY_QUALITY_OF_SERVICE
} OBJECT_ATTRIBUTES;
typedef OBJECT_ATTRIBUTES *POBJECT_ATTRIBUTES;
typedef CONST OBJECT_ATTRIBUTES *PCOBJECT_ATTRIBUTES;

//++
//
// VOID
// InitializeObjectAttributes(
//     OUT POBJECT_ATTRIBUTES p,
//     IN PUNICODE_STRING n,
//     IN ULONG a,
//     IN HANDLE r,
//     IN PSECURITY_DESCRIPTOR s
//     )
//
//--

#define InitializeObjectAttributes( p, n, a, r, s ) { \
    (p)->Length = sizeof( OBJECT_ATTRIBUTES );          \
    (p)->RootDirectory = r;                             \
    (p)->Attributes = a;                                \
    (p)->ObjectName = n;                                \
    (p)->SecurityDescriptor = s;                        \
    (p)->SecurityQualityOfService = NULL;               \
    }

// RTL_ to avoid collisions in the global namespace.
// I don't believe there are possible/likely constant RootDirectory
// or SecurityDescriptor values other than NULL, so they are hardcoded.
// As well, the string will generally be const, so we cast that away.
#define RTL_CONSTANT_OBJECT_ATTRIBUTES(n, a) \
    { sizeof(OBJECT_ATTRIBUTES), NULL, RTL_CONST_CAST(PUNICODE_STRING)(n), a, NULL, NULL }

// This synonym is more appropriate for initializing what isn't actually const.
#define RTL_INIT_OBJECT_ATTRIBUTES(n, a) RTL_CONSTANT_OBJECT_ATTRIBUTES(n, a)

// begin_ntminiport begin_ntndis begin_ntminitape

//
// Constants
//

#define FALSE   0
#define TRUE    1

#ifndef NULL
#ifdef __cplusplus
#define NULL    0
#define NULL64  0
#else
#define NULL    ((void *)0)
#define NULL64  ((void * POINTER_64)0)
#endif
#endif // NULL

// end_ntminiport end_ntndis end_ntminitape

// begin_winnt begin_ntndis

#include <guiddef.h>

#ifndef __OBJECTID_DEFINED
#define __OBJECTID_DEFINED

typedef struct  _OBJECTID {     // size is 20
    GUID Lineage;
    ULONG Uniquifier;
} OBJECTID;
#endif // !_OBJECTID_DEFINED

// end_winnt end_ntndis


#define MINCHAR     0x80        // winnt
#define MAXCHAR     0x7f        // winnt
#define MINSHORT    0x8000      // winnt
#define MAXSHORT    0x7fff      // winnt
#define MINLONG     0x80000000  // winnt
#define MAXLONG     0x7fffffff  // winnt
#define MAXUCHAR    0xff        // winnt
#define MAXUSHORT   0xffff      // winnt
#define MAXULONG    0xffffffff  // winnt

//
// Useful Helper Macros
//

// begin_ntndis
//
// Determine if an argument is present by testing the value of the pointer
// to the argument value.
//

#define ARGUMENT_PRESENT(ArgumentPointer)    (\
    (CHAR *)((ULONG_PTR)(ArgumentPointer)) != (CHAR *)(NULL) )

// begin_winnt begin_ntminiport
//
// Calculate the byte offset of a field in a structure of type type.
//

#define FIELD_OFFSET(type, field)    ((LONG)(LONG_PTR)&(((type *)0)->field))

//
// Calculate the size of a field in a structure of type type, without
// knowing or stating the type of the field.
//
#define RTL_FIELD_SIZE(type, field) (sizeof(((type *)0)->field))

//
// Calculate the size of a structure of type type up through and
// including a field.
//
#define RTL_SIZEOF_THROUGH_FIELD(type, field) \
    (FIELD_OFFSET(type, field) + RTL_FIELD_SIZE(type, field))

//
//  RTL_CONTAINS_FIELD usage:
//
//      if (RTL_CONTAINS_FIELD(pBlock, pBlock->cbSize, dwMumble)) { // safe to use pBlock->dwMumble
//
#define RTL_CONTAINS_FIELD(Struct, Size, Field) \
    ( (((PCHAR)(&(Struct)->Field)) + sizeof((Struct)->Field)) <= (((PCHAR)(Struct))+(Size)) )

//
// Return the number of elements in a statically sized array.
//   ULONG Buffer[100];
//   RTL_NUMBER_OF(Buffer) == 100
// This is also popularly known as: NUMBER_OF, ARRSIZE, _countof, NELEM, etc.
//
#define RTL_NUMBER_OF_V1(A) (sizeof(A)/sizeof((A)[0]))

#if defined(__cplusplus) && \
    !defined(MIDL_PASS) && \
    !defined(RC_INVOKED) && \
    !defined(_PREFAST_) && \
    (_MSC_FULL_VER >= 13009466) && \
    !defined(SORTPP_PASS)
//
// RtlpNumberOf is a function that takes a reference to an array of N Ts.
//
// typedef T array_of_T[N];
// typedef array_of_T &reference_to_array_of_T;
//
// RtlpNumberOf returns a pointer to an array of N chars.
// We could return a reference instead of a pointer but older compilers do not accept that.
//
// typedef char array_of_char[N];
// typedef array_of_char *pointer_to_array_of_char;
//
// sizeof(array_of_char) == N
// sizeof(*pointer_to_array_of_char) == N
//
// pointer_to_array_of_char RtlpNumberOf(reference_to_array_of_T);
//
// We never even call RtlpNumberOf, we just take the size of dereferencing its return type.
// We do not even implement RtlpNumberOf, we just declare it.
//
// Attempts to pass pointers instead of arrays to this macro result in compile time errors.
// That is the point.
//
extern "C++" // templates cannot be declared to have 'C' linkage
template <typename T, size_t N>
char (*RtlpNumberOf( UNALIGNED T (&)[N] ))[N];

#define RTL_NUMBER_OF_V2(A) (sizeof(*RtlpNumberOf(A)))

//
// This does not work with:
//
// void Foo()
// {
//    struct { int x; } y[2];
//    RTL_NUMBER_OF_V2(y); // illegal use of anonymous local type in template instantiation
// }
//
// You must instead do:
//
// struct Foo1 { int x; };
//
// void Foo()
// {
//    Foo1 y[2];
//    RTL_NUMBER_OF_V2(y); // ok
// }
//
// OR
//
// void Foo()
// {
//    struct { int x; } y[2];
//    RTL_NUMBER_OF_V1(y); // ok
// }
//
// OR
//
// void Foo()
// {
//    struct { int x; } y[2];
//    _ARRAYSIZE(y); // ok
// }
//

#else
#define RTL_NUMBER_OF_V2(A) RTL_NUMBER_OF_V1(A)
#endif

#ifdef ENABLE_RTL_NUMBER_OF_V2
#define RTL_NUMBER_OF(A) RTL_NUMBER_OF_V2(A)
#else
#define RTL_NUMBER_OF(A) RTL_NUMBER_OF_V1(A)
#endif

//
// ARRAYSIZE is more readable version of RTL_NUMBER_OF_V2, and uses
// it regardless of ENABLE_RTL_NUMBER_OF_V2
//
// _ARRAYSIZE is a version useful for anonymous types
//
#define ARRAYSIZE(A)    RTL_NUMBER_OF_V2(A)
#define _ARRAYSIZE(A)   RTL_NUMBER_OF_V1(A)

//
// An expression that yields the type of a field in a struct.
//
#define RTL_FIELD_TYPE(type, field) (((type*)0)->field)

// RTL_ to avoid collisions in the global namespace.
//
// Given typedef struct _FOO { BYTE Bar[123]; } FOO;
// RTL_NUMBER_OF_FIELD(FOO, Bar) == 123
//
#define RTL_NUMBER_OF_FIELD(type, field) (RTL_NUMBER_OF(RTL_FIELD_TYPE(type, field)))

//
// eg:
// typedef struct FOO {
//   ULONG Integer;
//   PVOID Pointer;
// } FOO;
//
// RTL_PADDING_BETWEEN_FIELDS(FOO, Integer, Pointer) == 0 for Win32, 4 for Win64
//
#define RTL_PADDING_BETWEEN_FIELDS(T, F1, F2) \
    ((FIELD_OFFSET(T, F2) > FIELD_OFFSET(T, F1)) \
        ? (FIELD_OFFSET(T, F2) - FIELD_OFFSET(T, F1) - RTL_FIELD_SIZE(T, F1)) \
        : (FIELD_OFFSET(T, F1) - FIELD_OFFSET(T, F2) - RTL_FIELD_SIZE(T, F2)))

// RTL_ to avoid collisions in the global namespace.
#if defined(__cplusplus)
#define RTL_CONST_CAST(type) const_cast<type>
#else
#define RTL_CONST_CAST(type) (type)
#endif

// end_winnt
//
// This works "generically" for Unicode and Ansi/Oem strings.
// Usage:
//   const static UNICODE_STRING FooU = RTL_CONSTANT_STRING(L"Foo");
//   const static         STRING Foo  = RTL_CONSTANT_STRING( "Foo");
// instead of the slower:
//   UNICODE_STRING FooU;
//           STRING Foo;
//   RtlInitUnicodeString(&FooU, L"Foo");
//          RtlInitString(&Foo ,  "Foo");
//
#define RTL_CONSTANT_STRING(s) { sizeof( s ) - sizeof( (s)[0] ), sizeof( s ), s }
// begin_winnt

// like sizeof
// usually this would be * CHAR_BIT, but we don't necessarily have #include <limits.h>
#define RTL_BITS_OF(sizeOfArg) (sizeof(sizeOfArg) * 8)

#define RTL_BITS_OF_FIELD(type, field) (RTL_BITS_OF(RTL_FIELD_TYPE(type, field)))

//
// Calculate the address of the base of the structure given its type, and an
// address of a field within the structure.
//

#define CONTAINING_RECORD(address, type, field) ((type *)( \
                                                  (PCHAR)(address) - \
                                                  (ULONG_PTR)(&((type *)0)->field)))

// end_winnt end_ntminiport end_ntndis

//
// Exception handler routine definition.
//

struct _CONTEXT;
struct _EXCEPTION_RECORD;

typedef
EXCEPTION_DISPOSITION
(*PEXCEPTION_ROUTINE) (
    IN struct _EXCEPTION_RECORD *ExceptionRecord,
    IN PVOID EstablisherFrame,
    IN OUT struct _CONTEXT *ContextRecord,
    IN OUT PVOID DispatcherContext
    );

// begin_ntminiport begin_ntndis

//
// Interrupt Request Level (IRQL)
//

typedef UCHAR KIRQL;

typedef KIRQL *PKIRQL;

// end_ntminiport end_ntndis

//
// Product types
//

typedef enum _NT_PRODUCT_TYPE {
    NtProductWinNt = 1,
    NtProductLanManNt,
    NtProductServer
} NT_PRODUCT_TYPE, *PNT_PRODUCT_TYPE;


//
// the bit mask, SharedUserData->SuiteMask, is a ULONG
// so there can be a maximum of 32 entries
// in this enum.
//

typedef enum _SUITE_TYPE {
    SmallBusiness,
    Enterprise,
    BackOffice,
    CommunicationServer,
    TerminalServer,
    SmallBusinessRestricted,
    EmbeddedNT,
    DataCenter,
    SingleUserTS,
    Personal,
    Blade,
    EmbeddedRestricted,
    SecurityAppliance,
    StorageServer,
    ComputeServer,
    MaxSuiteType
} SUITE_TYPE;

// begin_winnt

#define VER_SERVER_NT                       0x80000000
#define VER_WORKSTATION_NT                  0x40000000
#define VER_SUITE_SMALLBUSINESS             0x00000001
#define VER_SUITE_ENTERPRISE                0x00000002
#define VER_SUITE_BACKOFFICE                0x00000004
#define VER_SUITE_COMMUNICATIONS            0x00000008
#define VER_SUITE_TERMINAL                  0x00000010
#define VER_SUITE_SMALLBUSINESS_RESTRICTED  0x00000020
#define VER_SUITE_EMBEDDEDNT                0x00000040
#define VER_SUITE_DATACENTER                0x00000080
#define VER_SUITE_SINGLEUSERTS              0x00000100
#define VER_SUITE_PERSONAL                  0x00000200
#define VER_SUITE_BLADE                     0x00000400
#define VER_SUITE_EMBEDDED_RESTRICTED       0x00000800
#define VER_SUITE_SECURITY_APPLIANCE        0x00001000
#define VER_SUITE_STORAGE_SERVER            0x00002000
#define VER_SUITE_COMPUTE_SERVER            0x00004000

// end_winnt

// begin_winnt begin_r_winnt

//
//  Language IDs.
//
//  The following two combinations of primary language ID and
//  sublanguage ID have special semantics:
//
//    Primary Language ID   Sublanguage ID      Result
//    -------------------   ---------------     ------------------------
//    LANG_NEUTRAL          SUBLANG_NEUTRAL     Language neutral
//    LANG_NEUTRAL          SUBLANG_DEFAULT     User default language
//    LANG_NEUTRAL          SUBLANG_SYS_DEFAULT System default language
//    LANG_INVARIANT        SUBLANG_NEUTRAL     Invariant locale
//

//
//  Primary language IDs.
//

#define LANG_NEUTRAL                     0x00
#define LANG_INVARIANT                   0x7f

#define LANG_AFRIKAANS                   0x36
#define LANG_ALBANIAN                    0x1c
#define LANG_ARABIC                      0x01
#define LANG_ARMENIAN                    0x2b
#define LANG_ASSAMESE                    0x4d
#define LANG_AZERI                       0x2c
#define LANG_BASQUE                      0x2d
#define LANG_BELARUSIAN                  0x23
#define LANG_BENGALI                     0x45
#define LANG_BULGARIAN                   0x02
#define LANG_CATALAN                     0x03
#define LANG_CHINESE                     0x04
#define LANG_CROATIAN                    0x1a
#define LANG_CZECH                       0x05
#define LANG_DANISH                      0x06
#define LANG_DIVEHI                      0x65
#define LANG_DUTCH                       0x13
#define LANG_ENGLISH                     0x09
#define LANG_ESTONIAN                    0x25
#define LANG_FAEROESE                    0x38
#define LANG_FARSI                       0x29
#define LANG_FINNISH                     0x0b
#define LANG_FRENCH                      0x0c
#define LANG_GALICIAN                    0x56
#define LANG_GEORGIAN                    0x37
#define LANG_GERMAN                      0x07
#define LANG_GREEK                       0x08
#define LANG_GUJARATI                    0x47
#define LANG_HEBREW                      0x0d
#define LANG_HINDI                       0x39
#define LANG_HUNGARIAN                   0x0e
#define LANG_ICELANDIC                   0x0f
#define LANG_INDONESIAN                  0x21
#define LANG_ITALIAN                     0x10
#define LANG_JAPANESE                    0x11
#define LANG_KANNADA                     0x4b
#define LANG_KASHMIRI                    0x60
#define LANG_KAZAK                       0x3f
#define LANG_KONKANI                     0x57
#define LANG_KOREAN                      0x12
#define LANG_KYRGYZ                      0x40
#define LANG_LATVIAN                     0x26
#define LANG_LITHUANIAN                  0x27
#define LANG_MACEDONIAN                  0x2f   // the Former Yugoslav Republic of Macedonia
#define LANG_MALAY                       0x3e
#define LANG_MALAYALAM                   0x4c
#define LANG_MANIPURI                    0x58
#define LANG_MARATHI                     0x4e
#define LANG_MONGOLIAN                   0x50
#define LANG_NEPALI                      0x61
#define LANG_NORWEGIAN                   0x14
#define LANG_ORIYA                       0x48
#define LANG_POLISH                      0x15
#define LANG_PORTUGUESE                  0x16
#define LANG_PUNJABI                     0x46
#define LANG_ROMANIAN                    0x18
#define LANG_RUSSIAN                     0x19
#define LANG_SANSKRIT                    0x4f
#define LANG_SERBIAN                     0x1a
#define LANG_SINDHI                      0x59
#define LANG_SLOVAK                      0x1b
#define LANG_SLOVENIAN                   0x24
#define LANG_SPANISH                     0x0a
#define LANG_SWAHILI                     0x41
#define LANG_SWEDISH                     0x1d
#define LANG_SYRIAC                      0x5a
#define LANG_TAMIL                       0x49
#define LANG_TATAR                       0x44
#define LANG_TELUGU                      0x4a
#define LANG_THAI                        0x1e
#define LANG_TURKISH                     0x1f
#define LANG_UKRAINIAN                   0x22
#define LANG_URDU                        0x20
#define LANG_UZBEK                       0x43
#define LANG_VIETNAMESE                  0x2a

//
//  Sublanguage IDs.
//
//  The name immediately following SUBLANG_ dictates which primary
//  language ID that sublanguage ID can be combined with to form a
//  valid language ID.
//

#define SUBLANG_NEUTRAL                  0x00    // language neutral
#define SUBLANG_DEFAULT                  0x01    // user default
#define SUBLANG_SYS_DEFAULT              0x02    // system default

#define SUBLANG_ARABIC_SAUDI_ARABIA      0x01    // Arabic (Saudi Arabia)
#define SUBLANG_ARABIC_IRAQ              0x02    // Arabic (Iraq)
#define SUBLANG_ARABIC_EGYPT             0x03    // Arabic (Egypt)
#define SUBLANG_ARABIC_LIBYA             0x04    // Arabic (Libya)
#define SUBLANG_ARABIC_ALGERIA           0x05    // Arabic (Algeria)
#define SUBLANG_ARABIC_MOROCCO           0x06    // Arabic (Morocco)
#define SUBLANG_ARABIC_TUNISIA           0x07    // Arabic (Tunisia)
#define SUBLANG_ARABIC_OMAN              0x08    // Arabic (Oman)
#define SUBLANG_ARABIC_YEMEN             0x09    // Arabic (Yemen)
#define SUBLANG_ARABIC_SYRIA             0x0a    // Arabic (Syria)
#define SUBLANG_ARABIC_JORDAN            0x0b    // Arabic (Jordan)
#define SUBLANG_ARABIC_LEBANON           0x0c    // Arabic (Lebanon)
#define SUBLANG_ARABIC_KUWAIT            0x0d    // Arabic (Kuwait)
#define SUBLANG_ARABIC_UAE               0x0e    // Arabic (U.A.E)
#define SUBLANG_ARABIC_BAHRAIN           0x0f    // Arabic (Bahrain)
#define SUBLANG_ARABIC_QATAR             0x10    // Arabic (Qatar)
#define SUBLANG_AZERI_LATIN              0x01    // Azeri (Latin)
#define SUBLANG_AZERI_CYRILLIC           0x02    // Azeri (Cyrillic)
#define SUBLANG_CHINESE_TRADITIONAL      0x01    // Chinese (Taiwan)
#define SUBLANG_CHINESE_SIMPLIFIED       0x02    // Chinese (PR China)
#define SUBLANG_CHINESE_HONGKONG         0x03    // Chinese (Hong Kong S.A.R., P.R.C.)
#define SUBLANG_CHINESE_SINGAPORE        0x04    // Chinese (Singapore)
#define SUBLANG_CHINESE_MACAU            0x05    // Chinese (Macau S.A.R.)
#define SUBLANG_DUTCH                    0x01    // Dutch
#define SUBLANG_DUTCH_BELGIAN            0x02    // Dutch (Belgian)
#define SUBLANG_ENGLISH_US               0x01    // English (USA)
#define SUBLANG_ENGLISH_UK               0x02    // English (UK)
#define SUBLANG_ENGLISH_AUS              0x03    // English (Australian)
#define SUBLANG_ENGLISH_CAN              0x04    // English (Canadian)
#define SUBLANG_ENGLISH_NZ               0x05    // English (New Zealand)
#define SUBLANG_ENGLISH_EIRE             0x06    // English (Irish)
#define SUBLANG_ENGLISH_SOUTH_AFRICA     0x07    // English (South Africa)
#define SUBLANG_ENGLISH_JAMAICA          0x08    // English (Jamaica)
#define SUBLANG_ENGLISH_CARIBBEAN        0x09    // English (Caribbean)
#define SUBLANG_ENGLISH_BELIZE           0x0a    // English (Belize)
#define SUBLANG_ENGLISH_TRINIDAD         0x0b    // English (Trinidad)
#define SUBLANG_ENGLISH_ZIMBABWE         0x0c    // English (Zimbabwe)
#define SUBLANG_ENGLISH_PHILIPPINES      0x0d    // English (Philippines)
#define SUBLANG_FRENCH                   0x01    // French
#define SUBLANG_FRENCH_BELGIAN           0x02    // French (Belgian)
#define SUBLANG_FRENCH_CANADIAN          0x03    // French (Canadian)
#define SUBLANG_FRENCH_SWISS             0x04    // French (Swiss)
#define SUBLANG_FRENCH_LUXEMBOURG        0x05    // French (Luxembourg)
#define SUBLANG_FRENCH_MONACO            0x06    // French (Monaco)
#define SUBLANG_GERMAN                   0x01    // German
#define SUBLANG_GERMAN_SWISS             0x02    // German (Swiss)
#define SUBLANG_GERMAN_AUSTRIAN          0x03    // German (Austrian)
#define SUBLANG_GERMAN_LUXEMBOURG        0x04    // German (Luxembourg)
#define SUBLANG_GERMAN_LIECHTENSTEIN     0x05    // German (Liechtenstein)
#define SUBLANG_ITALIAN                  0x01    // Italian
#define SUBLANG_ITALIAN_SWISS            0x02    // Italian (Swiss)
#if _WIN32_WINNT >= 0x0501
#define SUBLANG_KASHMIRI_SASIA           0x02    // Kashmiri (South Asia)
#endif
#define SUBLANG_KASHMIRI_INDIA           0x02    // For app compatibility only
#define SUBLANG_KOREAN                   0x01    // Korean (Extended Wansung)
#define SUBLANG_LITHUANIAN               0x01    // Lithuanian
#define SUBLANG_MALAY_MALAYSIA           0x01    // Malay (Malaysia)
#define SUBLANG_MALAY_BRUNEI_DARUSSALAM  0x02    // Malay (Brunei Darussalam)
#define SUBLANG_NEPALI_INDIA             0x02    // Nepali (India)
#define SUBLANG_NORWEGIAN_BOKMAL         0x01    // Norwegian (Bokmal)
#define SUBLANG_NORWEGIAN_NYNORSK        0x02    // Norwegian (Nynorsk)
#define SUBLANG_PORTUGUESE               0x02    // Portuguese
#define SUBLANG_PORTUGUESE_BRAZILIAN     0x01    // Portuguese (Brazilian)
#define SUBLANG_SERBIAN_LATIN            0x02    // Serbian (Latin)
#define SUBLANG_SERBIAN_CYRILLIC         0x03    // Serbian (Cyrillic)
#define SUBLANG_SPANISH                  0x01    // Spanish (Castilian)
#define SUBLANG_SPANISH_MEXICAN          0x02    // Spanish (Mexican)
#define SUBLANG_SPANISH_MODERN           0x03    // Spanish (Spain)
#define SUBLANG_SPANISH_GUATEMALA        0x04    // Spanish (Guatemala)
#define SUBLANG_SPANISH_COSTA_RICA       0x05    // Spanish (Costa Rica)
#define SUBLANG_SPANISH_PANAMA           0x06    // Spanish (Panama)
#define SUBLANG_SPANISH_DOMINICAN_REPUBLIC 0x07  // Spanish (Dominican Republic)
#define SUBLANG_SPANISH_VENEZUELA        0x08    // Spanish (Venezuela)
#define SUBLANG_SPANISH_COLOMBIA         0x09    // Spanish (Colombia)
#define SUBLANG_SPANISH_PERU             0x0a    // Spanish (Peru)
#define SUBLANG_SPANISH_ARGENTINA        0x0b    // Spanish (Argentina)
#define SUBLANG_SPANISH_ECUADOR          0x0c    // Spanish (Ecuador)
#define SUBLANG_SPANISH_CHILE            0x0d    // Spanish (Chile)
#define SUBLANG_SPANISH_URUGUAY          0x0e    // Spanish (Uruguay)
#define SUBLANG_SPANISH_PARAGUAY         0x0f    // Spanish (Paraguay)
#define SUBLANG_SPANISH_BOLIVIA          0x10    // Spanish (Bolivia)
#define SUBLANG_SPANISH_EL_SALVADOR      0x11    // Spanish (El Salvador)
#define SUBLANG_SPANISH_HONDURAS         0x12    // Spanish (Honduras)
#define SUBLANG_SPANISH_NICARAGUA        0x13    // Spanish (Nicaragua)
#define SUBLANG_SPANISH_PUERTO_RICO      0x14    // Spanish (Puerto Rico)
#define SUBLANG_SWEDISH                  0x01    // Swedish
#define SUBLANG_SWEDISH_FINLAND          0x02    // Swedish (Finland)
#define SUBLANG_URDU_PAKISTAN            0x01    // Urdu (Pakistan)
#define SUBLANG_URDU_INDIA               0x02    // Urdu (India)
#define SUBLANG_UZBEK_LATIN              0x01    // Uzbek (Latin)
#define SUBLANG_UZBEK_CYRILLIC           0x02    // Uzbek (Cyrillic)

//
//  Sorting IDs.
//

#define SORT_DEFAULT                     0x0     // sorting default

#define SORT_JAPANESE_XJIS               0x0     // Japanese XJIS order
#define SORT_JAPANESE_UNICODE            0x1     // Japanese Unicode order

#define SORT_CHINESE_BIG5                0x0     // Chinese BIG5 order
#define SORT_CHINESE_PRCP                0x0     // PRC Chinese Phonetic order
#define SORT_CHINESE_UNICODE             0x1     // Chinese Unicode order
#define SORT_CHINESE_PRC                 0x2     // PRC Chinese Stroke Count order
#define SORT_CHINESE_BOPOMOFO            0x3     // Traditional Chinese Bopomofo order

#define SORT_KOREAN_KSC                  0x0     // Korean KSC order
#define SORT_KOREAN_UNICODE              0x1     // Korean Unicode order

#define SORT_GERMAN_PHONE_BOOK           0x1     // German Phone Book order

#define SORT_HUNGARIAN_DEFAULT           0x0     // Hungarian Default order
#define SORT_HUNGARIAN_TECHNICAL         0x1     // Hungarian Technical order

#define SORT_GEORGIAN_TRADITIONAL        0x0     // Georgian Traditional order
#define SORT_GEORGIAN_MODERN             0x1     // Georgian Modern order

// end_r_winnt

//
//  A language ID is a 16 bit value which is the combination of a
//  primary language ID and a secondary language ID.  The bits are
//  allocated as follows:
//
//       +-----------------------+-------------------------+
//       |     Sublanguage ID    |   Primary Language ID   |
//       +-----------------------+-------------------------+
//        15                   10 9                       0   bit
//
//
//  Language ID creation/extraction macros:
//
//    MAKELANGID    - construct language id from a primary language id and
//                    a sublanguage id.
//    PRIMARYLANGID - extract primary language id from a language id.
//    SUBLANGID     - extract sublanguage id from a language id.
//

#define MAKELANGID(p, s)       ((((USHORT)(s)) << 10) | (USHORT)(p))
#define PRIMARYLANGID(lgid)    ((USHORT)(lgid) & 0x3ff)
#define SUBLANGID(lgid)        ((USHORT)(lgid) >> 10)


//
//  A locale ID is a 32 bit value which is the combination of a
//  language ID, a sort ID, and a reserved area.  The bits are
//  allocated as follows:
//
//       +-------------+---------+-------------------------+
//       |   Reserved  | Sort ID |      Language ID        |
//       +-------------+---------+-------------------------+
//        31         20 19     16 15                      0   bit
//
//
//  Locale ID creation/extraction macros:
//
//    MAKELCID            - construct the locale id from a language id and a sort id.
//    MAKESORTLCID        - construct the locale id from a language id, sort id, and sort version.
//    LANGIDFROMLCID      - extract the language id from a locale id.
//    SORTIDFROMLCID      - extract the sort id from a locale id.
//    SORTVERSIONFROMLCID - extract the sort version from a locale id.
//

#define NLS_VALID_LOCALE_MASK  0x000fffff

#define MAKELCID(lgid, srtid)  ((ULONG)((((ULONG)((USHORT)(srtid))) << 16) |  \
                                         ((ULONG)((USHORT)(lgid)))))
#define MAKESORTLCID(lgid, srtid, ver)                                            \
                               ((ULONG)((MAKELCID(lgid, srtid)) |             \
                                    (((ULONG)((USHORT)(ver))) << 20)))
#define LANGIDFROMLCID(lcid)   ((USHORT)(lcid))
#define SORTIDFROMLCID(lcid)   ((USHORT)((((ULONG)(lcid)) >> 16) & 0xf))
#define SORTVERSIONFROMLCID(lcid)  ((USHORT)((((ULONG)(lcid)) >> 20) & 0xf))


//
//  Default System and User IDs for language and locale.
//

#define LANG_SYSTEM_DEFAULT    (MAKELANGID(LANG_NEUTRAL, SUBLANG_SYS_DEFAULT))
#define LANG_USER_DEFAULT      (MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT))

#define LOCALE_SYSTEM_DEFAULT  (MAKELCID(LANG_SYSTEM_DEFAULT, SORT_DEFAULT))
#define LOCALE_USER_DEFAULT    (MAKELCID(LANG_USER_DEFAULT, SORT_DEFAULT))

#define LOCALE_NEUTRAL                                                        \
          (MAKELCID(MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL), SORT_DEFAULT))

#define LOCALE_INVARIANT                                                      \
          (MAKELCID(MAKELANGID(LANG_INVARIANT, SUBLANG_NEUTRAL), SORT_DEFAULT))

// begin_ntminiport begin_ntndis begin_ntminitape

//
// Macros used to eliminate compiler warning generated when formal
// parameters or local variables are not declared.
//
// Use DBG_UNREFERENCED_PARAMETER() when a parameter is not yet
// referenced but will be once the module is completely developed.
//
// Use DBG_UNREFERENCED_LOCAL_VARIABLE() when a local variable is not yet
// referenced but will be once the module is completely developed.
//
// Use UNREFERENCED_PARAMETER() if a parameter will never be referenced.
//
// DBG_UNREFERENCED_PARAMETER and DBG_UNREFERENCED_LOCAL_VARIABLE will
// eventually be made into a null macro to help determine whether there
// is unfinished work.
//

#if ! defined(lint)
#define UNREFERENCED_PARAMETER(P)          (P)
#define DBG_UNREFERENCED_PARAMETER(P)      (P)
#define DBG_UNREFERENCED_LOCAL_VARIABLE(V) (V)

#else // lint

// Note: lint -e530 says don't complain about uninitialized variables for
// this variable.  Error 527 has to do with unreachable code.
// -restore restores checking to the -save state

#define UNREFERENCED_PARAMETER(P)          \
    /*lint -save -e527 -e530 */ \
    { \
        (P) = (P); \
    } \
    /*lint -restore */
#define DBG_UNREFERENCED_PARAMETER(P)      \
    /*lint -save -e527 -e530 */ \
    { \
        (P) = (P); \
    } \
    /*lint -restore */
#define DBG_UNREFERENCED_LOCAL_VARIABLE(V) \
    /*lint -save -e527 -e530 */ \
    { \
        (V) = (V); \
    } \
    /*lint -restore */

#endif // lint

//
// Macro used to eliminate compiler warning 4715 within a switch statement
// when all possible cases have already been accounted for.
//
// switch (a & 3) {
//     case 0: return 1;
//     case 1: return Foo();
//     case 2: return Bar();
//     case 3: return 1;
//     DEFAULT_UNREACHABLE;
//

#if (_MSC_VER > 1200)
#define DEFAULT_UNREACHABLE default: __assume(0)
#else

//
// Older compilers do not support __assume(), and there is no other free
// method of eliminating the warning.
//

#define DEFAULT_UNREACHABLE

#endif

// end_winnt

//
//  Define standard min and max macros
//

#ifndef NOMINMAX

#ifndef min
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif

#ifndef max
#define max(a,b) (((a) > (b)) ? (a) : (b))
#endif

#endif  // NOMINMAX

// end_ntminiport end_ntndis end_ntminitape

#endif // _NTDEF_

